US2400039A - Accumulator system - Google Patents

Description

' 7, 1946- R. T; BURNETT 2,400,039

ACCUMULATOR SYSTEM 1 Filed Feb. 19, 1942 2 Sheets-Sheet 1 Q 1 15.2 How/P0 zauf f r O NEY y 1946. R. T. BURNETT 2,400,039

AGGUMULATOR SYSTEM I 0 Filed Feb. 19, 1942 v2 Sheets-Sheet 2 INVENTOR Has 4m TEMP/V577 RNEY Patented May 7, 1946 UNITED s'rA'rEs PATENT oFncs I v accums 'z r sYs'rnM V I I I i Richard T. Burnett, South Bbnd, Ind. Application February 19, 1942, Serial N0. 431,511

14 Claims.

time as the fluid, is utilized in operating one or more motors. Wherever such a combination is used, a two-fold problem arises. First, sufliclent pressure must be maintained in the accumulator to allow the immediate and effective operation of the motor or motors connected thereto when such operation is necessary. Second, an upper limit must be placed on the pressure that can be accumulated or stored. second problemarlses from the need to prevent overloading of the accumulator or-storage tank.

Broadly, my invention comprehends the use of an accumulator to operate a fluid motor or motors, the use of a pressure creating pump to build up pressure in the accumulator, and the insertion of a valve device between the pump and accumulator which valve device is operable to open a by-pass conduit'when the accumulator pressure rises to a certain predetermined amount and to'close the said by-pass conduit whenever the fluid motor is operated from the accumulator. The by-pass conduit connects the pump-to a fluid reservoir 7 which is under atmospheric or normal pressure, a

and the pump therefore, whenever the by-pass is open, is operating under an extremely lightload. It is an object of my invention to provide, for

operatingfone or more fluid pressure motors, an

acc'umuiator system in which the pump is permitted to run under light pressure or no pressure when a high pressure prevails in the accumulator, the said pump not being again placed under load until there has been an actuation of one of the fluid motors controlled or operated by the accumulator system.

where a pump and accumulator combination I 'isused,itisdesirabletohavethepumpoperating at low pressures whenever. possible, in order to save wear and tear on the pump unit and in order to avoid generating heat in the pump.

To guaranteethataslightlossofpressurefrom' the accumulator shall' not reconnect the pump and accumulator and to that the relief valve may not be so'balancedasil': allow a slight by-passing sumcient to preventthe valve from being further opened but insuiiicient to relieve the load on the pump, -I have provided control mechanism for the by-pass conduit which is sub- Ject to a snap action; when the pressure in the accumulator reaches the predetermined maximum amount, the by-pas conduit is completely opened and remains open until a substantial pressure is exerted from a direction opposed to the pressure which opened the by-pass. This snap action is accomplished by using spring loaded toggles which resist movement to open the bypass and which likewise resist movement to close the by-pass until the dead center of the toggle mechanism has been passed.

Features of my invention include the use or several dashpots to prevent sharp and jarring movement of pistons, plungers and the like used in my device. A second feature is the use of an operating fluid wherever possible to sealthe interior of the; parts of my system and to thereby prevent the ingress of air. Another and important feature of my invention is the provision of a one-way pressure sealed vaive between thepump and the accumulator to allow now of fluid from the pump to the accumulator but not from 2 the accumulator to the pump, the by-pass con-' trolling device being connected to the pump-ac cumulator conduit on the pump side of the oneway valve in order that fluid under pressure from the accumulator may not leak past the piston which forms apart of the by-pass controlling device. Other advantages, objects and featm'es: of my invention will become apparent during the ins had therein to the accompanying ,drawing's in 39'Whioh;

Figure 1 shows diagrammatically a fluid pres-- course of the ensuing description, reference 2% control system which incorporates my mum mm 2 isa plan view of the combined motor control device and by-pass valve which constitutes the outstanding feature or part of my in vention;

' W3isasectiontakenonthelineI-3 of Figure2;

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In Figure 1 my accumulator system is illustrated as it might be used in'operating a hydraulic brake or brakes for an automowtive vehicle- It will be obvlousthat my invention is equally l pllcable in the operation of anyhydraulic or fluid wntrolled motor. whether the said motors be 5 used to operate brakes, clutch. throttle. gear shift on automotive vehicles, or any of the various hydraulically controlled units used in connection with aircraft.

A fluid reservoir I is connected by a line l2 to a pump I4. The pump I4 may be driven in any suitable manner, as, for example, by connection with the drive shaft of an automotive vehicle. The pump I4 is connected by a line I6 to a fitting I8 which is secured to a combined motor control and by-pass valve element indicated generally by the numera1 20. A fitting 22 connects one end of a line 24 with the valve device 20, the other end of the line 24 being connected to a conventional wheel cylinder 26 for operating a brake indicated generally by the numeral 28. A fitting 30 connects one end of a line 32 to the valve device 20, and the other end of the line 32 is connected to a hydraulic motor 34 arranged to operate brake 36. A conduit 38 connects a fitting 40 on the valve device 20 to an accumulator 42, said accumulator serving to hold the quantity of fluid placed under pressure by the pump I4 until such time as the fluid under pressure is utilized in applying the brakes 28 and 36. A pressure gauge 44 is connected'by a conduit 46 to the accumulator and serves to apprise the operator of the vehicle of the amount of pressure available. A conduit 48 connects the valve device 20 to the reservoir I0, the conduit being secured to the valve device by a fltting 50. A treadle or manually operable pedal 62 is pivoted at 63 adjacent the floor board 54 of the vehicle and has a rod 56 extending into the interior of the valve device 20 for operating the brakes of the vehicle, as will hereinafter be explained.

The valve device 20 is shown in detail in Figures 2 to inclusive. The device may conveniently be made in a single casting operation. It may thus constitute a single substantially solid piece having a number or passages and chambers therein. A port 58 opens, through the fitting I8, into the conduit I6 and is therefore adapted to receive at all times fluid under pressure from the pump I4. This pressure fluid, entering the valve device 20 through the port 58, moves along a passage 60 into a small chamber 62 thence into a passage 64 in an externally threaded fitting 66 and against the bottom of a ball valve 68 which is urged to seat at one end ofthe passage 64. A light spring I0, bearing against a cage I2 which in turn bears against the ball valve 68, serves to move the valve 68 to its seat closing the passage 64 whenever there is exceptionally light pressure on the fluid coming from the pump. Whenever the pressure in the accumulator exceeds the pressure on the delivery side of the pump, the accumulator pressure will itself hold valve -68 seated, the seal eifected by the valve being a pressure seal and therefore very effective. If the pump is operating under even a slight load, the pressure of the fluid will normally be suflicient to move the ball valve 68 from its seat and allow the Passage of the fluid through a conduit I4 into a small chamber I6 and from that chamber through a passage 18 to a port 80 and thence past the fitting 40 into the line 88 which leads to the accumulator 42.

Pressure fluid in the chamber 62 would pass through a passage 82, into a cross passage 84 except for a piston or plunger 86 which at times blocks the passage 32. The piston 86 is part of a. by-pass control device. which constitutes a focal point or my invention, and which will subsequent- 84 is connected to the reservoir through a passage 88 in a plunger 30 which is part of the valve device for controlling operation of the brakes. Passage 88 connects passage 84 to a small chamber 92 which in turn opens, through the fitting 50, to reservoir conduit 48. A passage 94 connects the accumulator passage 18 to a pressure release device which comprises a valve member 96, normally seated at the end of passage 94 to close the said passage, and a spring 98 holding the valve member seated. When the accumulator pressure prises a piston I00 movable by the treadle controlled rod 56, the plungerj90, a spring I02 compressed between the plunger 90 and the piston I00, and a valve element I04 which controls the connecting of the motors 26 and 34 alternately to the accumulator and to the reservoir. In the position shown in Fig. 4, the valve element I04, which in reality constitutes two valves, I04a and I04b, is biased by a spring I06 to seat its valve I04 against an obstructing member I08 and thereby prevent fiuid flow between the accumulatorconnected chamber 16 and an interior chamber 1 I0 between the member I08 and the plunger 90. The chamber III) is connected by a passage I2 (see broken line passage in Fig. 2) to the conduit 32 which leads to motor 34. 'Intermediate its ends, passage II2 connects through passage 4 with conduit 24 which leads to motor 26 (see Fig. 5). The chamber Il0 may thus be considered the motor chamber of the system, inasmuch as it is at all times connected to the motors which operate the brakes. Referring again to Fig. 4, valve element I04, when in released position as shown, has its valve I04b separated from the plunger '30, so that the chamber I I0 is connected to the reservoir. A spring H6 in chamber IIO urges the plunger 90 toward released position. At the left end of valve element I04, which constitutes valve I04a, an alignable guide member I I8 is provided, shaped to allow proper alignment of the valve element I04 with its cooperating valve seats, but to at the same time, guide the valve element I04 in its reciprocable movements. Passage II4, it should be noted, extends past its junction with passage II2 (see Fig. 5) to intersect cross passage I20. The passage I20 at one end leads 'to a pressure controlled hydraulic stop light switch I22 of the usual type, and at its other when the vehicle brakes are released, the passage end leads to a chamber I24.

The by-pass device which regulates the alternate connecting of the pump to the accumulator and to the reservoir will now be specifically described. The device may be seen clearly in Figures 3, 4, and 5. ,It comprises the smal piston 86 (already mentioned) which is reciprocable in passage 62, and a large piston I26 which is reciprocable in the chamber I24. The piston 86 is at all times subjected to the pressure prevailing in the connection between the pump and the accumulator, which pressure tends to move the piston 86 in the direction of the large piston I26. The piston I26 is a all times subjected to the pressure prevailing in chamber III! and likewise in motors 26 and 34, which pressure tends to move piston I26 in the direction of the small thepiston I28 is in the position shown in Fig.

3, the springs I88 exert considerable force tending'to hold piston I28 at rest. When suflicient force is exerted against piston 88 to move piston I28 against whatever pressure may exist in chamber I28 and against the resistance of the spring loaded toggle device, the resistance of the toggle device to movement of piston I28 will increase until the thrust 'rods i28 are straightened out, i. e., are on a line with one another. Then the toggle device will assist piston 88 in moving piston I28. I

Operation of my fluid pressure system is substantially as follows. As'long as the piston 88 blocks passage 82, operation oi the pump II will build up pressure in the accumulator 82. This pressure constantly tends to move piston 88 against piston I28. Whenever the pressure created by the pump against piston 88 is willcientto overcome the force exerted by springs I32 and thrust toggle device I28, the piston 88 will be moved with a quick action to open passage 88 to passage 82, thereby connecting the pump to reservoir I8. Since ball valve 88 will 7 now be forced against as seat by the accumulator pressure, the accumulator will be disconnected from the pump and the pump will be loaded only by reservoir or atmospheric pressure. The pump will not be again connected to' the accumulator until the brake applying motors have been actuated. When itfis desired to actuate the said brake applying motors the operator will depress the member 82 moving piston I88 to exert through spring I82 9. force tending to move plunger 88, first seating valve I881), thus disconnecting chamber II8 from the reservoir and then unseating valve I880, thus connecting chamber 8 to the accumulator to admit fluid under accumulator pressure to the motors 28 and 88, applying the brakes. The fluid from the accumulator when admitted to chamber II8 will exert a force tending to move plunger 88 back to its released positionwith the result that a reaction or feel will be created, giving the operator an indication of the amount of pressure which is being exerted to apply the brakes. When the reaction is suiiicient, valve Illa will be closed, and since IMb remains closed, the brake applying valve is in lapped position. To reopen valve I884: and thus increase the brake applying pressure it will be necessary for the operator to exert greater pressure on piston. I 88 and at the same time it will be necessary for the operator to move piston I88 in a direction to further compress spring I82. This compressibility of spring I82 .provides for follow-up. It will be noted that initial movement of plunger 88 closes passage 88, thus cutting of! the bypass and forcing the buildup oi press'urein' the accumulator even though bypass valve 88 may be open. Because of this feature, it is possible for the operator to, charge a fully discharged accumulator by actuating the plunger "and hold ing it in the iorward position until pressure in the accumulator and-in the motor builds up suillciently to move large piston I28 to the left.

As long as chamber I28 is connected through plunger and at times opposing the large plunger chamber 8 to'the reservoir the pressure against piston I28-is not suflicient to overcome the force of springs I82 which, itwill be remembered, are nowexertinga force tending to hold piston I28 away from piston 88. 'As soon as fluid from the accumulator is admitted to chamber 8 it is admitted also to chamber I24 and exerts a pressure on piston I28 tending to move the said piston in the direction of piston 88. Owing to the large diameter of piston I28, a comparatively small pressure in chamber I28 will overcome the force exerted by springs I82 and piston I28 will be snapped back to the position in which it forces piston 88 to obstruct passage 82. A venting pasbuild up pressure in the accumulator until such time as the pressure once again acts through the passage 88 to overcome pressure exerted by the toggle device.

While a single illustrative embodiment of my device has been described, it will be obvious that there are innumerable uses to which my invention can be put and that it may be embodied in innumerable forms. It is therefore my intention that the scope of my invention be limited, not by the description of this embodiment, but only by the terms ofthe appended claims.

I claim: 1.' A fluid pressuresystem comprising an accumulator for storing fluid under pressure, a

pump connected to the accumulator for building up pressure in the accumulator, a reservoir, a connection between the pump and the reservoir and constructed and arranged to allow the pump to take fluid from the reservoir and by-pass the fluid to the reservoir when the pump discharge pressure exceeds a given amount, and means for controlling the connection between the pump andthe reservoir including a small plunger which is at times subjected to pump discharge pressure, a large plunger opposing the small plunger and at times subjected to partial accumulator pressure, and a toggle device at times opposing the small plunger and at times opposing the large plunger according to the positions of the plungers. I

2. A fluid pressure system comprising an accumulator for storing fluid under pressure, a pump connected to the accumulator for building up pressure'in the accumulator, a reservoir, a connection between the pump and the reservoir and constructed and arranged to allow the pump to take fluid from the reservoir and by-pass the fluid to the reservoir when the pump discharge pressure exceeds a given amount, and means for controlling the connection etween the pump and the reservoir including a small plunger which is at times subjected tothe .pump pressure, a large plunger opposing the small plunger and at times subjected to partial accumulator pressure, and a toggle device at times opposing the small according to thepositions of the plungers.

.3. A fluid pressuresystem comprising an accumulator for storing'fluid under pressure, a pump connected to the accumulator for building up pressure in the accumulator, a reservoir, a connection between the pump and the reservoir which allows the pump to take fluid from the reservoir and by-pass the fluid to the reservoir when the pump discharge pressure is higher than a given amount, and means for controlling the connection between the pump and the reservoir including a small plunger which is at times subjected to pump discharge pressure and which serves as a valve for opening and closing the bypass, a large plunger opposing the small plunger and at times subjected to partial accumulator pressure, and a toggle device at times opposing the smallplunger and at times opposing the large plunger according to the positions of the plungers.

4. A fluid pressure system comprising an accumulator for storing fluid under pressure, a pump connected to the accumulator for buildin up pressure in the accumulator, a reservoir, a connection between the pump and the reservoir which allows the pump to take fluid from the reservoir and by-pass the fluid to the reservoir when the pump discharge pressure is higher than a given amount, and means for controlling the connection between the pump and the reservoir including a small plunger which is at times subjected to pump discharge pressure and which serves as a slide valve opening and closing the bypass, and a large plunger opposing the small plunger and at times subjected to partial accumulator pressure, lsaid large plunger being resisted in its initial movement by a flexible means acting on said plunger.

5. A fluid pressure system comprising an accumulator for storing fluid under pressure, a pump connected to the accumulator for building up pressure in the accumulator, a one-way check valve between the pump and the accumulator urged to close by accumulator pressure, a reservoir, a connection between the pump .and the reservoir which allows the pump to take fluid from the reservoir and by-pass he fluid to'the reservoir when the pump discharge pressure is higher than a given amount, and means for controlling the connection between the pump and the reservoir including a small plunger which is at times subjected to pump discharge pressure and which serves as a valve for opening and closing the bypass, a large plunger opposing the small plunger and at times subjected to partial accumulator pressure, and a toggle device at times opposing the small plunger and at times opposing the large plunger according to the positions of the plungers.

6. A fluid pressure system comprising an accumulator for storing fluid under pressure, a pump connected to the accumulator for building up pressure in theaccumulator, a one-way check valve between the pump and the accumulator urged to close by accumulator pressure, a reservoir, a connection between the pump and the reservoir which allows the pump to take fluid from the reservoir and by-pass the fluid to the reservoir when the pump discharge pressure is higher than a given amount, and means controlling the connection between the pump and the reservoir including a small plunger which is subjected to the pressure on the delivery side ofvalve between the pump and the accumulator urged to close by accumulator pressure, a reservoir, a connection between the pump and the reservoir which allows the pump to take fluid from the reservoir and by-pass the fluid to the reservoir when the pump discharge pressure is higher than a given amount, and means for controlling the connection between the pump and the reservoir including a small plunger which is subjected to the pressure on the delivery side of the pump, and a large plunger opposing the small plunger and at times subjected to partial accumulator pressure, said large plunger being resisted in its initial movement by a flexible means acting on said plunger.

8. A fluid pressure system comprising a fluid operated motor, an accumulator for storing fluid under pressure, a pump connected to the accumulator for building pressure in the accumulator,

the pump, and which serves as a slide valve cona one-way check valve between the pump and the accumulator which is urged to close by accumulator pressure, a control valve for connecting the accumulator to the motor to operate the motor, a bypass for connecting the outlet side of the pump to a pressure difiering from accumulator pressure, -means dor automatically controlling the bypass having an area subjected to the pressure prevailing on the delivery side of the pump and a larger area subjectedto the pressure prevailing in the motor whenever the valve is actuated to cause operation of themetor, said means including a device which yieldably opposes the pressure against the smaller area so long as the bypass is closed thereby causing the accumulator pressure to build up before the bypass is opened, and'means associated with the control valve for cutting oil the bypass whenever the motor is actuated thus causing an initial buildup of pressure in the accumulator and in the motor.

9. A fluid pressure system comprising a fluid operated motor, an accumulator for storing fluid under pressure, a pump connected to the accumulator for building pressure in the accumulator, a one-way check valve between the pump and the accumulator which is urged to close by accumulator pressure, a control valve for connecting the accumulator to the motor to operate the motor, a bypass for connecting the outlet side of the pump to a pressure diflering from accumulator pressure, means for automatically controlling the bypass having an area subjected to the pressure prevailing on the delivery side 01. the pump and a larger area subjected to the pressure prevailing in the motor whenever the .valve is actuated to cause operation of the motor,

and means associated with the control valve for cutting oil the bypass whenever the motor is actuated thus causing an initial buildup of pressure in the accumulator and in the motor.

10. A fluid pressure system comprising a fluid operated motor, an accumulator for storing fluid under pressure, a pump connected to the accumulator for building pressure in the accumulator, a one-way check valve between'the pump and the accumulator which is urged to close by accumulator pressure, a control valve for connecting the accumulator to the motor to operate the motor, a bypass for connecting the outlet side of the pump to a pressure diflering from accumulator pressure, means for automatically controlling the bypass according to the pressure prevailing on thedelivery side of the pump and the pressure prevailing in the motor, the pressure prevailing on the delivery side 01 the pump 2,400,089 opposing the pressure prevailing in the motor and means associated with the control valve for a cutting oi! the bypass whenever the motor is acpump connected to the accumulator for building up pressure in the accumulator, a reservoir, a connection between the pump and the reservoir which allows the pump to take fluid from thereservoir and bypass the fiuid to the reservoir when the pump discharge pressure is higher than a given amount, a plunger which serves as a slide valve opening and closing the bypass and which also serves as a pressure responsive control for the bypass, said plunger having a relatively small area subjected to pump discharge pressure and a relatively large opposed area subjected at times to partial accumulator pressure, and a toggle device associated with the plungerwhich serves to give said plunger a snap action when it moves from one position to the other and which also serves, by opposing the pump discharge pressure when the bypass is closed, to cause said ac cumulator pressure to build up to a predetermined amount.

12. For a hydraulic system having an accumulator, reservoir, pump and motor; a regulator valve comprising a first passageway for connecting the pump to the reservoir, a first piston for controlling communication in the first passageway and subject to pump discharge pressure, a

second passageway and close communication be tween the chamberand the first passageway. 45

wherebysaidfirstpistonismovedtoclosesaid firstpassageway,

13. For a hydraulic system having an accumulator, reservoir, pump and motor; a regulator valve comprising a first passageway tor connecting the pump to the reservoir, a first piston for.

controlling communication in the first passageway and subject to pump discharge pressure, a second piston larger than the first piston and opposed thereto, a second passageway for connecting the pump to the accumulator, a chamber communicating with the motor and one end of said second piston, said passageways arranged with respect to the chamber to communicate therewith at times, valve means, including means for controlling communication in the first pas sageway, for controlling communication from the chamber to thepassageways, and means'ior actuating the valve means to close communication in the first passageway when said first piston has moved to a position tending to establish communication through said first passageway, whereby hydraulic fluid is caused to fiow in said second passageway.

14. For a hydraulic system having an accumulator, reservoir, pump and motor; a regulator 1 valve comprising a first passageway tor connectsecond piston larger than the first piston and opposed thereto, yieldable members acting on said second piston tending to resist movement thereof by the first piston, a second passageway tor-connecting the pump to the accumulator, a chamber communicating with the motor and one end oi. said second piston, said passageways arranged with respect tothe chamber to communicate therewith at times, valve means, including means for controlling communication in the first passageway, for controlling communication from the chamber to the passageways, and means for actuating the valve means to close communication in the first passageway when said first piston has moved to a position tending to establish communication through said first passageway, whereby hydraulic fiuid is caused to now in said second passageway.

' mom '1'. mm.

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